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* Installing solidity tweeks * A few more misspells * More inconsistencies fixed * Removed contractions according to our guide.
177 lines
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ReStructuredText
177 lines
10 KiB
ReStructuredText
********************************
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Solidity v0.8.0 Breaking Changes
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********************************
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This section highlights the main breaking changes introduced in Solidity
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version 0.8.0.
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For the full list check
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`the release changelog <https://github.com/ethereum/solidity/releases/tag/v0.8.0>`_.
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Silent Changes of the Semantics
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===============================
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This section lists changes where existing code changes its behavior without
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the compiler notifying you about it.
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* Arithmetic operations revert on underflow and overflow. You can use ``unchecked { ... }`` to use
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the previous wrapping behavior.
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Checks for overflow are very common, so we made them the default to increase readability of code,
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even if it comes at a slight increase of gas costs.
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* ABI coder v2 is activated by default.
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You can choose to use the old behavior using ``pragma abicoder v1;``.
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The pragma ``pragma experimental ABIEncoderV2;`` is still valid, but it is deprecated and has no effect.
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If you want to be explicit, please use ``pragma abicoder v2;`` instead.
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Note that ABI coder v2 supports more types than v1 and performs more sanity checks on the inputs.
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ABI coder v2 makes some function calls more expensive and it can also make contract calls
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revert that did not revert with ABI coder v1 when they contain data that does not conform to the
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parameter types.
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* Exponentiation is right associative, i.e., the expression ``a**b**c`` is parsed as ``a**(b**c)``.
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Before 0.8.0, it was parsed as ``(a**b)**c``.
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This is the common way to parse the exponentiation operator.
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* Failing assertions and other internal checks like division by zero or arithmetic overflow do
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not use the invalid opcode but instead the revert opcode.
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More specifically, they will use error data equal to a function call to ``Panic(uint256)`` with an error code specific
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to the circumstances.
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This will save gas on errors while it still allows static analysis tools to distinguish
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these situations from a revert on invalid input, like a failing ``require``.
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* If a byte array in storage is accessed whose length is encoded incorrectly, a panic is caused.
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A contract cannot get into this situation unless inline assembly is used to modify the raw representation of storage byte arrays.
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* If constants are used in array length expressions, previous versions of Solidity would use arbitrary precision
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in all branches of the evaluation tree. Now, if constant variables are used as intermediate expressions,
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their values will be properly rounded in the same way as when they are used in run-time expressions.
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* The type ``byte`` has been removed. It was an alias of ``bytes1``.
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New Restrictions
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================
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This section lists changes that might cause existing contracts to not compile anymore.
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* There are new restrictions related to explicit conversions of literals. The previous behavior in
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the following cases was likely ambiguous:
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1. Explicit conversions from negative literals and literals larger than ``type(uint160).max`` to
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``address`` are disallowed.
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2. Explicit conversions between literals and an integer type ``T`` are only allowed if the literal
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lies between ``type(T).min`` and ``type(T).max``. In particular, replace usages of ``uint(-1)``
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with ``type(uint).max``.
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3. Explicit conversions between literals and enums are only allowed if the literal can
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represent a value in the enum.
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4. Explicit conversions between literals and ``address`` type (e.g. ``address(literal)``) have the
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type ``address`` instead of ``address payable``. One can get a payable address type by using an
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explicit conversion, i.e., ``payable(literal)``.
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* :ref:`Address literals<address_literals>` have the type ``address`` instead of ``address
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payable``. They can be converted to ``address payable`` by using an explicit conversion, e.g.
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``payable(0xdCad3a6d3569DF655070DEd06cb7A1b2Ccd1D3AF)``.
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* There are new restrictions on explicit type conversions. The conversion is only allowed when there
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is at most one change in sign, width or type-category (``int``, ``address``, ``bytesNN``, etc.).
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To perform multiple changes, use multiple conversions.
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Let us use the notation ``T(S)`` to denote the explicit conversion ``T(x)``, where, ``T`` and
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``S`` are types, and ``x`` is any arbitrary variable of type ``S``. An example of such a
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disallowed conversion would be ``uint16(int8)`` since it changes both width (8 bits to 16 bits)
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and sign (signed integer to unsigned integer). In order to do the conversion, one has to go
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through an intermediate type. In the previous example, this would be ``uint16(uint8(int8))`` or
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``uint16(int16(int8))``. Note that the two ways to convert will produce different results e.g.,
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for ``-1``. The following are some examples of conversions that are disallowed by this rule.
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- ``address(uint)`` and ``uint(address)``: converting both type-category and width. Replace this by
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``address(uint160(uint))`` and ``uint(uint160(address))`` respectively.
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- ``payable(uint160)``, ``payable(bytes20)`` and ``payable(integer-literal)``: converting both
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type-category and state-mutability. Replace this by ``payable(address(uint160))``,
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``payable(address(bytes20))`` and ``payable(address(integer-literal))`` respectively. Note that
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``payable(0)`` is valid and is an exception to the rule.
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- ``int80(bytes10)`` and ``bytes10(int80)``: converting both type-category and sign. Replace this by
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``int80(uint80(bytes10))`` and ``bytes10(uint80(int80)`` respectively.
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- ``Contract(uint)``: converting both type-category and width. Replace this by
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``Contract(address(uint160(uint)))``.
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These conversions were disallowed to avoid ambiguity. For example, in the expression ``uint16 x =
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uint16(int8(-1))``, the value of ``x`` would depend on whether the sign or the width conversion
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was applied first.
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* Function call options can only be given once, i.e. ``c.f{gas: 10000}{value: 1}()`` is invalid and has to be changed to ``c.f{gas: 10000, value: 1}()``.
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* The global functions ``log0``, ``log1``, ``log2``, ``log3`` and ``log4`` have been removed.
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These are low-level functions that were largely unused. Their behavior can be accessed from inline assembly.
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* ``enum`` definitions cannot contain more than 256 members.
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This will make it safe to assume that the underlying type in the ABI is always ``uint8``.
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* Declarations with the name ``this``, ``super`` and ``_`` are disallowed, with the exception of
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public functions and events. The exception is to make it possible to declare interfaces of contracts
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implemented in languages other than Solidity that do permit such function names.
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* Remove support for the ``\b``, ``\f``, and ``\v`` escape sequences in code.
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They can still be inserted via hexadecimal escapes, e.g. ``\x08``, ``\x0c``, and ``\x0b``, respectively.
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* The global variables ``tx.origin`` and ``msg.sender`` have the type ``address`` instead of
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``address payable``. One can convert them into ``address payable`` by using an explicit
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conversion, i.e., ``payable(tx.origin)`` or ``payable(msg.sender)``.
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This change was done since the compiler cannot determine whether or not these addresses
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are payable or not, so it now requires an explicit conversion to make this requirement visible.
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* Explicit conversion into ``address`` type always returns a non-payable ``address`` type. In
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particular, the following explicit conversions have the type ``address`` instead of ``address
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payable``:
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- ``address(u)`` where ``u`` is a variable of type ``uint160``. One can convert ``u``
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into the type ``address payable`` by using two explicit conversions, i.e.,
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``payable(address(u))``.
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- ``address(b)`` where ``b`` is a variable of type ``bytes20``. One can convert ``b``
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into the type ``address payable`` by using two explicit conversions, i.e.,
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``payable(address(b))``.
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- ``address(c)`` where ``c`` is a contract. Previously, the return type of this
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conversion depended on whether the contract can receive Ether (either by having a receive
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function or a payable fallback function). The conversion ``payable(c)`` has the type ``address
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payable`` and is only allowed when the contract ``c`` can receive Ether. In general, one can
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always convert ``c`` into the type ``address payable`` by using the following explicit
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conversion: ``payable(address(c))``. Note that ``address(this)`` falls under the same category
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as ``address(c)`` and the same rules apply for it.
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* The ``chainid`` builtin in inline assembly is now considered ``view`` instead of ``pure``.
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* Unary negation cannot be used on unsigned integers anymore, only on signed integers.
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Interface Changes
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=================
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* The output of ``--combined-json`` has changed: JSON fields ``abi``, ``devdoc``, ``userdoc`` and
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``storage-layout`` are sub-objects now. Before 0.8.0 they used to be serialised as strings.
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* The "legacy AST" has been removed (``--ast-json`` on the commandline interface and ``legacyAST`` for standard JSON).
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Use the "compact AST" (``--ast-compact--json`` resp. ``AST``) as replacement.
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* The old error reporter (``--old-reporter``) has been removed.
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How to update your code
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=======================
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- If you rely on wrapping arithmetic, surround each operation with ``unchecked { ... }``.
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- Optional: If you use SafeMath or a similar library, change ``x.add(y)`` to ``x + y``, ``x.mul(y)`` to ``x * y`` etc.
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- Add ``pragma abicoder v1;`` if you want to stay with the old ABI coder.
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- Optionally remove ``pragma experimental ABIEncoderV2`` or ``pragma abicoder v2`` since it is redundant.
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- Change ``byte`` to ``bytes1``.
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- Add intermediate explicit type conversions if required.
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- Combine ``c.f{gas: 10000}{value: 1}()`` to ``c.f{gas: 10000, value: 1}()``.
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- Change ``msg.sender.transfer(x)`` to ``payable(msg.sender).transfer(x)`` or use a stored variable of ``address payable`` type.
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- Change ``x**y**z`` to ``(x**y)**z``.
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- Use inline assembly as a replacement for ``log0``, ..., ``log4``.
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- Negate unsigned integers by subtracting them from the maximum value of the type and adding 1 (e.g. ``type(uint256).max - x + 1``, while ensuring that ``x`` is not zero)
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